CN112897011B - Automatic treatment method for waste liquid in organic test small bottle - Google Patents

Abstract

The invention discloses an automatic treatment method of waste liquid in organic test vials, which is characterized in that small vials are subjected to adjustment feeding through vibrating a feeding disc, so that each small vial can fall into a containing through hole of a pushing block in a manner that a bottle cap is downward, a puncture needle is convenient to pierce a sealing soft adhesive layer and feed air into the small vial, so that the waste liquid in the small vial is discharged, and the small vial and the organic waste liquid are respectively recovered, so that the automatic recovery treatment of the small vial with the organic waste liquid is realized, the labor intensity of operators is reduced, meanwhile, the operators are prevented from contacting with the volatile organic waste liquid for a long time, and the health of the operators is ensured.

Description

Automatic treatment method for waste liquid in organic test vial

Technical Field

The invention relates to the field of detection technology industry, in particular to an automatic treatment method for waste liquid in organic test vials.

Background

Analytical techniques such as GC-MS and HPLC for detecting organic trace substances are widely used in the fields of consumer products, food, electronic and electric products and environmental protection, a large number of test vials with residual organic solvents are generated, the components of residual liquid are complex, and how to treat the vials with liquid with higher safety risk becomes a problem to be treated urgently in the current face of detection industries and environmental-protection recovery treatment departments. Currently, there is no ideal method for safely and efficiently treating these liquid-containing vials in the industry, and only the following temporary measures can be taken:

1. manually unscrew the cap of the small bottle and pour the waste liquid in the small bottle into a recycling bin. By adopting the method, the labor intensity of operators is high, and the working environment is diffused with pungent odor due to the volatilization of the organic waste liquid in the small bottle, thereby bringing great influence on the health of the operators.

2. And (4) naturally volatilizing. The liquid-carrying small bottle taken from the organic testing instrument is placed in a corner where people do not frequently pass for a plurality of weeks by utilizing the volatility of the organic solvent, and is naturally stored until the organic waste liquid in the small bottle is completely volatilized to the environment. The method is long in time consumption, is only suitable for small laboratories, and the volatilization of the organic waste liquid can pollute the surrounding environment and harm the health of surrounding personnel.

3. And (5) uniformly treating by an environmental protection recovery company. There is a contract between laboratories and the environmental protection recycling company, and vials of organic waste liquid produced in the laboratories are recycled by the environmental protection company on an irregular basis. However, when the environmental protection recycling company recovers, the difficulty of classifying the small bottles with different waste liquids is high, and different organic substances are mixed together after being leaked, so that the risk of thermal explosion exists. Therefore, many recycling companies are reluctant to recycle the liquid-carrying small bottles, and the laboratory is required to automatically treat the waste liquid in the bottles for recycling.

Accordingly, the prior art is deficient and needs improvement.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide an automatic treatment method for waste liquid in an organic test vial.

The technical scheme of the invention is as follows: provided is an automated processing method of waste liquid in an organic test vial, comprising the steps of:

step 1, pouring a small bottle filled with organic waste liquid into a vibrating feeding tray;

step 2, starting the vibrating feeding disc to enable the organic waste liquid small bottle to move in a mode that the bottle cover faces forwards;

step 3, the small organic waste liquid bottles penetrate through the positioning holes of the positioning blocks on the separating mechanism in a mode that the bottle covers downwards and fall into the containing through holes of the material pushing blocks;

step 4, starting the separating mechanism, and blocking the falling of other subsequent vials in the positioning hole;

step 5, starting the liquid collecting mechanism, driving the puncture needle to move upwards by the liquid collecting power mechanism, and puncturing the puncture needle into a sealing soft rubber layer on the bottle cap of the small bottle;

step 6, supplying air by an air source, blowing compressed air into the small bottle through an air inlet hole on the puncture needle, and enabling the organic waste liquid in the bottle to flow out along a liquid discharge groove on the puncture needle;

step 7, the organic waste liquid falls into a liquid collecting funnel below the puncture needle and enters a waste liquid collecting and processing device along a pipeline;

step 8, after the organic waste liquid in the small bottles is completely discharged, drawing out the puncture needle, starting a material pushing power mechanism of the material pushing mechanism, and driving a material pushing block to move forwards so that the accommodating through hole moves to the upper part of the blanking pipeline;

9, the small bottles fall into a material receiving basket along a material falling pipeline;

step 10, resetting the pushing mechanism and resetting the separating mechanism;

and 11, circularly repeating the step 3 to the step 10 until the small bottles on the feeding tray are vibrated to finish the liquid discharge recovery work.

Further, the specific steps of step 4 are:

step 4.1, separating the working of the cylinder and pushing out the stop block;

and 4.2, the feeding through hole and the positioning hole on the stop block are deviated to block the small bottle from falling down, or the bottleneck of the small bottle is embedded into the stop strip hole on the stop block to limit the movement of the small bottle.

By adopting the scheme, the small bottles are adjusted and fed by vibrating the feeding disc, so that each small bottle can fall into the containing through hole of the pushing block in a way that the bottle cap is downward, the puncture needle can conveniently puncture the sealing soft rubber layer and feed air into the small bottle, so that waste liquid in the small bottle is discharged, and the small bottle and the organic waste liquid are respectively recovered, the automatic recovery treatment of the small bottle with the organic waste liquid is realized, the labor intensity of operators is reduced, meanwhile, the operators are prevented from contacting with the volatile organic waste liquid for a long time, and the health of the operators is guaranteed.

Drawings

FIG. 1 is a block flow diagram of the present invention.

FIG. 2 is a schematic view of the present invention.

Fig. 3 is a schematic structural diagram of the pushing mechanism and the separating mechanism.

Fig. 4 is a schematic structural view of the liquid collecting mechanism.

Fig. 5 is a schematic view of the structure of the puncture needle.

Fig. 6 is a schematic view of the structure of the stop block.

Detailed Description

The invention is described in detail below with reference to the figures and the specific embodiments.

Referring to fig. 1 to 6, the present invention provides a method for automatically treating waste liquid in an organic test vial, which is implemented by an automated treatment workstation. The automated processing workstation comprises: the device comprises a machine table, a vibrating feeding disc 1 arranged on the machine table, a separating mechanism 2 arranged at the rear end of the vibrating feeding disc 1, a material pushing mechanism 3 arranged below the separating mechanism 2, a liquid receiving mechanism 4 arranged below the material pushing mechanism 3, and a blanking pipeline 5 arranged beside the material receiving mechanism 4.

The pushing mechanism 3 includes: the pushing device comprises a pushing power mechanism 31 and a pushing block 32 arranged on the output end of the pushing power mechanism 31. The material pushing block 32 is provided with a containing through hole 321, and the aperture of the containing through hole 321 is larger than the maximum outer diameter of the vial to be processed.

The separation mechanism 2 includes: the separating cylinder 21, a stop block 22 arranged on the output shaft of the separating cylinder 21, and a positioning block 23 arranged above the pushing block 32. The positioning block 23 is provided with a slot corresponding to the stopper 22, and the stopper 22 is embedded into the slot. The positioning block 23 is provided with a positioning hole 231, and the aperture of the positioning hole 231 is larger than the maximum outer diameter of the vial to be processed. The stop block 22 is provided with a stop strip hole 222 and a feeding through hole 221. The length of the short side of the stop strip hole 222 is between the maximum outer diameter of the bottle and the outer diameter of the neck of the bottle, and the diameter of the feeding through hole 221 is larger than the maximum outer diameter of the bottle.

The liquid collecting mechanism 4 comprises: the puncture device comprises a puncture power mechanism 41, a puncture needle 42 arranged on the output end of the puncture power mechanism 41, and a liquid collecting funnel 43 arranged below the puncture needle 42. An air inlet hole 421 is formed in the puncture needle 42, an air inlet connector is arranged on the puncture needle 42 and connected with the air inlet hole 421, and an air source is connected to the other end of the air inlet connector. The puncture needle 42 is provided with a plurality of liquid discharge grooves 422. The puncture needle 42 is arranged right below the discharge hole of the vibrating feeding disc 1.

The invention comprises the following steps:

step 1, pouring a small bottle filled with organic waste liquid into a vibrating feeding tray 1.

And 2, starting the vibrating feeding disc 1 to enable the organic waste liquid small bottle to move in a mode that the bottle cover faces forwards. Because the bottle lid is equipped with to the cover of small bottle front end, the weight of bottle lid one end is heavier, consequently in the vibration material loading plate 1 in-process of carrying out the vibration material loading for bottle lid one end is carried out the material loading forward, reduces manual operation, improves degree of automation.

And step 3, the organic waste liquid small bottles pass through the positioning holes 231 of the positioning blocks 23 on the separating mechanism 2 in a bottle cap downward mode and fall into the accommodating through holes 321 of the material pushing blocks 32.

And 4, starting the separating mechanism 2, and blocking the falling of other subsequent vials in the positioning hole 23. The method comprises the following specific steps:

and 4.1, operating the separation cylinder 21 to push the stop block 22 out.

And 4.2, the loading through hole 221 on the stop block 22 is offset from the positioning hole 23 to block the bottle from falling down, or the bottle neck of the bottle is embedded into the stop strip hole 222 on the stop block 22 to limit the movement of the bottle.

The stop block 22 is extended by the separating mechanism 2 to block and limit the subsequent vials from falling into the accommodating through hole 321, so that the pushing mechanism 3 is prevented from being damaged or the vials are prevented from being broken due to the movement of the pushing block 32 being blocked by the extended vials, and the working stability and safety of the system are improved.

And 5, starting the liquid collecting mechanism 4, driving the puncture needle 42 to move upwards by the liquid collecting power mechanism 41, and puncturing the puncture needle 42 into a sealing soft rubber layer on the bottle cap of the small bottle.

And 6, supplying air by an air source, and blowing compressed air into the small bottle through an air inlet hole 421 on the puncture needle 42 so that the organic waste liquid in the bottle flows out along a liquid discharge groove 422 on the puncture needle 42.

And 7, the organic waste liquid falls into a liquid collecting funnel 43 below the puncture needle 42 and enters the waste liquid collecting and processing device along a pipeline. After the organic waste liquid flows into the collecting and treating device, the organic waste liquid is converted into substances harmless to the environment through chemical reaction so as to reduce the harm to the surrounding environment.

And 8, after the organic waste liquid in the small bottles is completely discharged, drawing out the puncture needle 42, starting the pushing power mechanism 31 of the pushing mechanism 3, driving the pushing block 32 to move forwards, and enabling the accommodating through hole 321 to move to the upper part of the blanking pipeline 5.

And 9, the small bottles fall into the material receiving basket along the material falling pipeline 5, so that the small bottles can be conveniently and intensively recovered by an operator.

And 10, resetting the pushing mechanism 3 and the separating mechanism 2.

And 11, circularly repeating the step 3 to the step 10 until the small bottles on the upper tray 1 are vibrated to finish the liquid drainage recovery work.

The small bottles are adjusted and fed through vibrating the feeding disc 1, each small bottle can fall into the containing through hole 321 of the pushing block 32 in a mode that the bottle cap faces downwards, the puncture needle 42 is convenient to pierce into the sealing soft rubber layer and supply air into the small bottles, so that waste liquid in the small bottles is discharged, the small bottles and organic waste liquid are respectively recycled, automatic recycling of the small bottles with the organic waste liquid is achieved, labor intensity of operators is reduced, meanwhile, the operators are prevented from being in contact with the volatile organic waste liquid for a long time, and health of the operators is guaranteed.

In conclusion, the automatic feeding device disclosed by the invention can be used for automatically feeding the small bottles and automatically separating and recovering the small bottles and the organic waste liquid in the small bottles so as to reduce the manual labor, improve the recovery efficiency, ensure the health and safety of operators and meet the use requirements of laboratories.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (2)

1. An automated method for processing waste liquid in an organic test vial, comprising the steps of:

step 1, pouring a small bottle filled with organic waste liquid into a vibrating feeding tray;

step 2, starting the vibrating feeding disc to enable the organic waste liquid small bottle to move in a mode that the bottle cover faces forwards;

step 3, the small organic waste liquid bottle passes through a positioning hole of a positioning block on the separating mechanism in a mode that a bottle cover is downward, and falls into an accommodating through hole of the material pushing block;

step 4, starting the separating mechanism, and blocking the falling of other subsequent vials in the positioning hole;

step 5, starting the liquid collecting mechanism, driving the puncture needle to move upwards by the liquid collecting power mechanism, and puncturing the puncture needle into a sealing soft rubber layer on the bottle cap of the small bottle;

step 6, supplying air by an air source, blowing compressed air into the small bottle through an air inlet hole on the puncture needle, and enabling the organic waste liquid in the bottle to flow out along a liquid discharge groove on the puncture needle;

step 7, the organic waste liquid falls into a liquid collecting funnel below the puncture needle and enters a waste liquid collecting and processing device along a pipeline;

step 8, after the organic waste liquid in the small bottles is completely discharged, drawing out the puncture needle, starting a material pushing power mechanism of the material pushing mechanism, and driving a material pushing block to move forwards so that the accommodating through hole moves to the upper part of the blanking pipeline;

9, the small bottles fall into a material receiving basket along a material falling pipeline;

step 10, resetting the pushing mechanism and resetting the separating mechanism;

and 11, circularly repeating the step 3 to the step 10 until the small bottles on the upper tray are vibrated to finish the liquid drainage recovery work.

2. The method for automated processing of waste liquid in organic test vials according to claim 1, characterized in that the specific steps of step 4 are:

step 4.1, separating the working of the cylinder and pushing out the stop block;

and 4.2, the feeding through hole and the positioning hole on the stop block are deviated to stop the small bottle from falling down, or the bottle neck of the small bottle is embedded into the stop strip hole on the stop block to limit the movement of the small bottle.

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